Medical system calibration with static metal compensation
First Claim
1. A method for calibrating a medical system capable of generating a magnetic field for tracking a position of a medical device, the method comprising the steps of:
- (a) generating a magnetic field;
(b) defining a mapping volume within the generated magnetic field;
(c) placing a metallic object within the mapping volume;
(d) aligning a sensor at a first point within the mapping volume and measuring the magnetic field at the first point with the sensor to establish a first coordinate position (Xi, Yi, Zi);
(e) moving the sensor to a next point (Xi+dx, Yi+dy, Zi+dz) along one coordinate axis by an added distance component (dx, dy, dz) and measuring the magnetic field at the next point to establish a next coordinate position;
(f) interpolating the magnetic field at an intermediate point between the first position and the next coordinate position to establish an interpolated intermediate coordinate position;
(g) determining the position difference between the interpolated intermediate coordinate position and an actual intermediate coordinate position;
(h) comparing the position difference to an error limit;
(i) setting (Xi, Yi, Zi) of the next point as (Xi=Xi+dx, Yi=Yi+dy, Zi=Zi+dz) if the position difference is within the error limit and repeating steps (e)-(h) along another coordinate axis; and
(j) setting the added distance component (dx, dy, dz) by decreasing the value of the added distance component if the position difference is not within the error limit and repeating steps (e)-(h) along the same coordinate axis.
1 Assignment
0 Petitions
Accused Products
Abstract
A method for calibrating a medical system capable of generating a magnetic field for tracking a position of a medical device has various steps such as defining a mapping volume within the generated magnetic field and placing a metallic object within the mapping volume. A sensor is aligned at a first point within the mapping volume and the magnetic field at the first point is measured with the sensor to establish a first coordinate position (Xi, Yi, Zi). An interpolation technique in one embodiment and an extrapolation technique in another embodiment are used in the calibration method.
71 Citations
21 Claims
-
1. A method for calibrating a medical system capable of generating a magnetic field for tracking a position of a medical device, the method comprising the steps of:
-
(a) generating a magnetic field; (b) defining a mapping volume within the generated magnetic field; (c) placing a metallic object within the mapping volume; (d) aligning a sensor at a first point within the mapping volume and measuring the magnetic field at the first point with the sensor to establish a first coordinate position (Xi, Yi, Zi); (e) moving the sensor to a next point (Xi+dx, Yi+dy, Zi+dz) along one coordinate axis by an added distance component (dx, dy, dz) and measuring the magnetic field at the next point to establish a next coordinate position; (f) interpolating the magnetic field at an intermediate point between the first position and the next coordinate position to establish an interpolated intermediate coordinate position; (g) determining the position difference between the interpolated intermediate coordinate position and an actual intermediate coordinate position; (h) comparing the position difference to an error limit; (i) setting (Xi, Yi, Zi) of the next point as (Xi=Xi+dx, Yi=Yi+dy, Zi=Zi+dz) if the position difference is within the error limit and repeating steps (e)-(h) along another coordinate axis; and (j) setting the added distance component (dx, dy, dz) by decreasing the value of the added distance component if the position difference is not within the error limit and repeating steps (e)-(h) along the same coordinate axis. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
-
-
11. A method for calibrating a medical system capable of generating a magnetic field for tracking a position of a medical device, the method comprising the steps of:
-
(a) generating a magnetic field; (b) defining a mapping volume within the generated magnetic field; (c) placing a metallic object within the mapping volume; (d) aligning a sensor at a first point within the mapping volume and measuring the magnetic field at the first point with the sensor to establish a first coordinate position (Xi , Yi, Zi); (e) extrapolating the magnetic field of a next point (Xi+dx, Yi+dy, Zi+dz) along one coordinate axis by an added distance component (dx, dy, dz); (f) calculating the coordinate position at the extrapolated next point based on the extrapolated magnetic field to establish an extrapolated coordinate position; (g) determining the position difference between the extrapolated intermediate coordinate position and the actual coordinate position of the next point; (h) comparing the position difference to an error limit; (i) setting the added distance component (dx, dy, dz) according to a predetermined distance if the position difference is within the error limit, aligning the sensor at a new point with the mapping volume along another coordinate asxis and measuring the magnetic field at the new point with the sensor to establish a new coordinate position and repeating steps (e)-(h) along the other coordinate axis; and (j) setting the added distance component (dx, dy, dz) by decreasing the value of the added distance component if the position difference is not within the error limit and establishing an intermediate point between the first point and the next point as the first position and repeating steps (e)-(h) along the same coordinate axis. - View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19, 20, 21)
-
Specification